Foot Pain

Jayson Goo, ATC, MA, CKTI

Jayson Goo, ATC, MA, CKTI, a National Athletic Board Certified Athletic Trainer, graduated from the University of Hawaii and earned his master's degree in human performance with a specialty in corrective therapy from San Jose State University. Jayson also is an active Certified Kinesio Taping Instructor.

William C. Shiel Jr., MD, FACP, FACR

Dr. Shiel received a Bachelor of Science degree with honors from the University of Notre Dame. There he was involved in research in radiation biology and received the Huisking Scholarship. After graduating from St. Louis University School of Medicine, he completed his Internal Medicine residency and Rheumatology fellowship at the University of California, Irvine. He is board-certified in Internal Medicine and Rheumatology.

How is the foot designed?

The foot is an intricate structure of 26 bones that form two crossing arches of the foot. The longitudinal arch runs the length of the foot, and the transverse arch runs the width. The ankle joint is formed by the interaction of the foot and the lower leg, and the toes are on the far side of the foot. The bones of the foot are primarily held together by their fit with each other and connected by a fibrous tissue known as ligaments. The muscles of the foot, along with a tough, sinewy tissue known as the plantar fascia, provide secondary support to the foot. The foot has internal muscles that originate and insert in the foot and external muscles that begin in the lower leg and attach in various places on the bones of the foot. There are also fat pads in the foot to help with weight-bearing and absorbing impact.

Picture of the Anatomy of the Foot

Picture of the metatarsal (foot) and calcaneus (heel) bones, the plantar fascia ligament, and the Achilles tendon of the lower leg and foot

The foot is the foundation of movement of the lower extremity. Pain in the foot indicates that there is something wrong with either the interaction of internal structures of the foot or with the how the foot is interacting with external influences. How and when the pain occurs and the locations of the pain are the primary clues to what may be causing the pain. When there is pain, the body reacts by changing the way it moves or functions in an effort to reduce the pain. Biomechanical changes or disease may prevent the normal movement and cause further injury.